#! /usr/bin/python

import getopt
import os
import re
import sys

import ovs.json
import ovs.db.error
import ovs.db.schema

argv0 = sys.argv[0]

def parseSchema(filename):
    return ovs.db.schema.IdlSchema.from_json(ovs.json.from_file(filename))

def annotateSchema(schemaFile, annotationFile):
    schemaJson = ovs.json.from_file(schemaFile)
    execfile(annotationFile, globals(), {"s": schemaJson})
    ovs.json.to_stream(schemaJson, sys.stdout)
    sys.stdout.write('\n')

def constify(cType, const):
    if (const
        and cType.endswith('*') and
        (cType == 'char **' or not cType.endswith('**'))):
        return 'const %s' % cType
    else:
        return cType

def cMembers(prefix, tableName, columnName, column, const):
    comment = ""
    type = column.type

    if type.is_smap():
        comment = """
/* Sets the "%(c)s" column's value from the "%(t)s" table in 'row'
 * to '%(c)s'.
 *
 * The caller retains ownership of '%(c)s' and everything in it. */""" \
             % {'c': columnName,
                't': tableName}
        return (comment, [{'name': columnName,
                           'type': 'struct smap ',
                           'comment': ''}])

    comment = """\n/* Sets the "%s" column from the "%s" table in """\
              """'row' to\n""" % (columnName, tableName)

    if type.n_min == 1 and type.n_max == 1:
        singleton = True
        pointer = ''
    else:
        singleton = False
        if type.is_optional_pointer():
            pointer = ''
        else:
            pointer = '*'


    if type.value:
        keyName = "key_%s" % columnName
        valueName = "value_%s" % columnName

        key = {'name': keyName,
               'type': constify(type.key.toCType(prefix) + pointer, const),
               'comment': ''}
        value = {'name': valueName,
                 'type': constify(type.value.toCType(prefix) + pointer, const),
                 'comment': ''}

        if singleton:
            comment += " * the map with key '%s' and value '%s'\n *" \
                       % (keyName, valueName)
        else:
            comment += " * the map with keys '%s' and values '%s'\n *" \
                       % (keyName, valueName)
        members = [key, value]
    else:
        m = {'name': columnName,
             'type': constify(type.key.toCType(prefix) + pointer, const),
             'comment': type.cDeclComment()}

        if singleton:
            comment += " * '%s'" % columnName
        else:
            comment += " * the '%s' set" % columnName
        members = [m]

    if not singleton and not type.is_optional_pointer():
        sizeName = "n_%s" % columnName

        comment += " with '%s' entries" % sizeName
        members.append({'name': sizeName,
                        'type': 'size_t ',
                        'comment': ''})

    comment += ".\n"

    if type.is_optional() and not type.is_optional_pointer():
        comment += """ *
 * '%s' may be 0 or 1; if it is 0, then '%s'
 * may be NULL.\n""" \
        % ("n_%s" % columnName, columnName)

    if type.is_optional_pointer():
        comment += """ *
 * If "%s" is null, the column will be the empty set,
 * otherwise it will contain the specified value.\n""" % columnName

    if type.constraintsToEnglish():
        comment += """ *
 * Argument constraints: %s\n""" \
        % type.constraintsToEnglish(lambda s : '"%s"' % s)

    comment += " *\n * The caller retains ownership of the arguments. */"

    return (comment, members)

def printCIDLHeader(schemaFile):
    schema = parseSchema(schemaFile)
    prefix = schema.idlPrefix
    print '''\
/* Generated automatically -- do not modify!    -*- buffer-read-only: t -*- */

#ifndef %(prefix)sIDL_HEADER
#define %(prefix)sIDL_HEADER 1

#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>
#include "ovsdb-data.h"
#include "ovsdb-idl-provider.h"
#include "smap.h"
#include "uuid.h"''' % {'prefix': prefix.upper()}

    for tableName, table in sorted(schema.tables.iteritems()):
        structName = "%s%s" % (prefix, tableName.lower())

        print ""
        print "/* %s table. */" % tableName
        print "struct %s {" % structName
        print "\tstruct ovsdb_idl_row header_;"
        for columnName, column in sorted(table.columns.iteritems()):
            print "\n\t/* %s column. */" % columnName
            comment, members = cMembers(prefix, tableName,
                                        columnName, column, False)
            for member in members:
                print "\t%(type)s%(name)s;%(comment)s" % member
        print "};"

        # Column indexes.
        printEnum(["%s_COL_%s" % (structName.upper(), columnName.upper())
                   for columnName in sorted(table.columns)]
                  + ["%s_N_COLUMNS" % structName.upper()])

        print
        for columnName in table.columns:
            print "#define %(s)s_col_%(c)s (%(s)s_columns[%(S)s_COL_%(C)s])" % {
                's': structName,
                'S': structName.upper(),
                'c': columnName,
                'C': columnName.upper()}

        print "\nextern struct ovsdb_idl_column %s_columns[%s_N_COLUMNS];" % (structName, structName.upper())

        print '''
const struct %(s)s *%(s)s_get_for_uuid(const struct ovsdb_idl *, const struct uuid *);
const struct %(s)s *%(s)s_first(const struct ovsdb_idl *);
const struct %(s)s *%(s)s_next(const struct %(s)s *);
#define %(S)s_FOR_EACH(ROW, IDL) \\
        for ((ROW) = %(s)s_first(IDL); \\
             (ROW); \\
             (ROW) = %(s)s_next(ROW))
#define %(S)s_FOR_EACH_SAFE(ROW, NEXT, IDL) \\
        for ((ROW) = %(s)s_first(IDL); \\
             (ROW) ? ((NEXT) = %(s)s_next(ROW), 1) : 0; \\
             (ROW) = (NEXT))

unsigned int %(s)s_get_seqno(const struct ovsdb_idl *);
unsigned int %(s)s_row_get_seqno(const struct %(s)s *row, enum ovsdb_idl_change change);
const struct %(s)s *%(s)s_track_get_first(const struct ovsdb_idl *);
const struct %(s)s *%(s)s_track_get_next(const struct %(s)s *);
#define %(S)s_FOR_EACH_TRACKED(ROW, IDL) \\
        for ((ROW) = %(s)s_track_get_first(IDL); \\
             (ROW); \\
             (ROW) = %(s)s_track_get_next(ROW))

void %(s)s_init(struct %(s)s *);
void %(s)s_delete(const struct %(s)s *);
struct %(s)s *%(s)s_insert(struct ovsdb_idl_txn *);
''' % {'s': structName, 'S': structName.upper()}

        for columnName, column in sorted(table.columns.iteritems()):
            print 'void %(s)s_verify_%(c)s(const struct %(s)s *);' % {'s': structName, 'c': columnName}

        print
        for columnName, column in sorted(table.columns.iteritems()):
            if column.type.value:
                valueParam = ', enum ovsdb_atomic_type value_type'
            else:
                valueParam = ''
            print 'const struct ovsdb_datum *%(s)s_get_%(c)s(const struct %(s)s *, enum ovsdb_atomic_type key_type%(v)s);' % {
                's': structName, 'c': columnName, 'v': valueParam}

        print
        for columnName, column in sorted(table.columns.iteritems()):
            print 'void %(s)s_set_%(c)s(const struct %(s)s *,' % {'s': structName, 'c': columnName},
            if column.type.is_smap():
                args = ['const struct smap *']
            else:
                comment, members = cMembers(prefix, tableName, columnName,
                                            column, True)
                args = ['%(type)s%(name)s' % member for member in members]
            print '%s);' % ', '.join(args)

        print

    # Table indexes.
    printEnum(["%sTABLE_%s" % (prefix.upper(), tableName.upper()) for tableName in sorted(schema.tables)] + ["%sN_TABLES" % prefix.upper()])
    print
    for tableName in schema.tables:
        print "#define %(p)stable_%(t)s (%(p)stable_classes[%(P)sTABLE_%(T)s])" % {
            'p': prefix,
            'P': prefix.upper(),
            't': tableName.lower(),
            'T': tableName.upper()}
    print "\nextern struct ovsdb_idl_table_class %stable_classes[%sN_TABLES];" % (prefix, prefix.upper())

    print "\nextern struct ovsdb_idl_class %sidl_class;" % prefix
    print "\nvoid %sinit(void);" % prefix

    print "\nconst char * %sget_db_version(void);" % prefix
    print "\n#endif /* %(prefix)sIDL_HEADER */" % {'prefix': prefix.upper()}

def printEnum(members):
    if len(members) == 0:
        return

    print "\nenum {";
    for member in members[:-1]:
        print "    %s," % member
    print "    %s" % members[-1]
    print "};"

def printCIDLSource(schemaFile):
    schema = parseSchema(schemaFile)
    prefix = schema.idlPrefix
    print '''\
/* Generated automatically -- do not modify!    -*- buffer-read-only: t -*- */

#include <config.h>
#include %s
#include <limits.h>
#include "ovs-thread.h"
#include "ovsdb-data.h"
#include "ovsdb-error.h"
#include "util.h"

#ifdef __CHECKER__
/* Sparse dislikes sizeof(bool) ("warning: expression using sizeof bool"). */
enum { sizeof_bool = 1 };
#else
enum { sizeof_bool = sizeof(bool) };
#endif

static bool inited;
''' % schema.idlHeader

    # Cast functions.
    for tableName, table in sorted(schema.tables.iteritems()):
        structName = "%s%s" % (prefix, tableName.lower())
        print '''
static struct %(s)s *
%(s)s_cast(const struct ovsdb_idl_row *row)
{
    return row ? CONTAINER_OF(row, struct %(s)s, header_) : NULL;
}\
''' % {'s': structName}


    for tableName, table in sorted(schema.tables.iteritems()):
        structName = "%s%s" % (prefix, tableName.lower())
        print ""
        print "/* %s table. */" % (tableName)

        # Parse functions.
        for columnName, column in sorted(table.columns.iteritems()):
            print '''
static void
%(s)s_parse_%(c)s(struct ovsdb_idl_row *row_, const struct ovsdb_datum *datum)
{
    struct %(s)s *row = %(s)s_cast(row_);''' % {'s': structName,
                                                'c': columnName}
            type = column.type
            if type.value:
                keyVar = "row->key_%s" % columnName
                valueVar = "row->value_%s" % columnName
            else:
                keyVar = "row->%s" % columnName
                valueVar = None

            if type.is_smap():
                print "    size_t i;"
                print
                print "    ovs_assert(inited);"
                print "    smap_init(&row->%s);" % columnName
                print "    for (i = 0; i < datum->n; i++) {"
                print "        smap_add(&row->%s," % columnName
                print "                 datum->keys[i].string,"
                print "                 datum->values[i].string);"
                print "    }"
            elif (type.n_min == 1 and type.n_max == 1) or type.is_optional_pointer():
                print
                print "    ovs_assert(inited);"
                print "    if (datum->n >= 1) {"
                if not type.key.ref_table:
                    print "        %s = datum->keys[0].%s;" % (keyVar, type.key.type.to_string())
                else:
                    print "        %s = %s%s_cast(ovsdb_idl_get_row_arc(row_, &%stable_classes[%sTABLE_%s], &datum->keys[0].uuid));" % (keyVar, prefix, type.key.ref_table.name.lower(), prefix, prefix.upper(), type.key.ref_table.name.upper())

                if valueVar:
                    if type.value.ref_table:
                        print "        %s = datum->values[0].%s;" % (valueVar, type.value.type.to_string())
                    else:
                        print "        %s = %s%s_cast(ovsdb_idl_get_row_arc(row_, &%stable_classes[%sTABLE_%s], &datum->values[0].uuid));" % (valueVar, prefix, type.value.ref_table.name.lower(), prefix, prefix.upper(), type.value.ref_table.name.upper())
                print "    } else {"
                print "        %s" % type.key.initCDefault(keyVar, type.n_min == 0)
                if valueVar:
                    print "        %s" % type.value.initCDefault(valueVar, type.n_min == 0)
                print "    }"
            else:
                if type.n_max != sys.maxint:
                    print "    size_t n = MIN(%d, datum->n);" % type.n_max
                    nMax = "n"
                else:
                    nMax = "datum->n"
                print "    size_t i;"
                print
                print "    ovs_assert(inited);"
                print "    %s = NULL;" % keyVar
                if valueVar:
                    print "    %s = NULL;" % valueVar
                print "    row->n_%s = 0;" % columnName
                print "    for (i = 0; i < %s; i++) {" % nMax
                refs = []
                if type.key.ref_table:
                    print "        struct %s%s *keyRow = %s%s_cast(ovsdb_idl_get_row_arc(row_, &%stable_classes[%sTABLE_%s], &datum->keys[i].uuid));" % (prefix, type.key.ref_table.name.lower(), prefix, type.key.ref_table.name.lower(), prefix, prefix.upper(), type.key.ref_table.name.upper())
                    keySrc = "keyRow"
                    refs.append('keyRow')
                else:
                    keySrc = "datum->keys[i].%s" % type.key.type.to_string()
                if type.value and type.value.ref_table:
                    print "        struct %s%s *valueRow = %s%s_cast(ovsdb_idl_get_row_arc(row_, &%stable_classes[%sTABLE_%s], &datum->values[i].uuid));" % (prefix, type.value.ref_table.name.lower(), prefix, type.value.ref_table.name.lower(), prefix, prefix.upper(), type.value.ref_table.name.upper())
                    valueSrc = "valueRow"
                    refs.append('valueRow')
                elif valueVar:
                    valueSrc = "datum->values[i].%s" % type.value.type.to_string()
                if refs:
                    print "        if (%s) {" % ' && '.join(refs)
                    indent = "            "
                else:
                    indent = "        "
                print "%sif (!row->n_%s) {" % (indent, columnName)

                # Special case for boolean types.  This is only here because
                # sparse does not like the "normal" case ("warning: expression
                # using sizeof bool").
                if type.key.type == ovs.db.types.BooleanType:
                    sizeof = "sizeof_bool"
                else:
                    sizeof = "sizeof *%s" % keyVar
                print "%s    %s = xmalloc(%s * %s);" % (indent, keyVar, nMax,
                                                        sizeof)
                if valueVar:
                    # Special case for boolean types (see above).
                    if type.value.type == ovs.db.types.BooleanType:
                        sizeof = " * sizeof_bool"
                    else:
                        sizeof = "sizeof *%s" % valueVar
                    print "%s    %s = xmalloc(%s * %s);" % (indent, valueVar,
                                                            nMax, sizeof)
                print "%s}" % indent
                print "%s%s[row->n_%s] = %s;" % (indent, keyVar, columnName, keySrc)
                if valueVar:
                    print "%s%s[row->n_%s] = %s;" % (indent, valueVar, columnName, valueSrc)
                print "%srow->n_%s++;" % (indent, columnName)
                if refs:
                    print "        }"
                print "    }"
            print "}"

        # Unparse functions.
        for columnName, column in sorted(table.columns.iteritems()):
            type = column.type
            if type.is_smap() or (type.n_min != 1 or type.n_max != 1) and not type.is_optional_pointer():
                print '''
static void
%(s)s_unparse_%(c)s(struct ovsdb_idl_row *row_)
{
    struct %(s)s *row = %(s)s_cast(row_);

    ovs_assert(inited);''' % {'s': structName, 'c': columnName}

                if type.is_smap():
                    print "    smap_destroy(&row->%s);" % columnName
                else:
                    if type.value:
                        keyVar = "row->key_%s" % columnName
                        valueVar = "row->value_%s" % columnName
                    else:
                        keyVar = "row->%s" % columnName
                        valueVar = None
                    print "    free(%s);" % keyVar
                    if valueVar:
                        print "    free(%s);" % valueVar
                print '}'
            else:
                print '''
static void
%(s)s_unparse_%(c)s(struct ovsdb_idl_row *row OVS_UNUSED)
{
    /* Nothing to do. */
}''' % {'s': structName, 'c': columnName}

        # Generic Row Initialization function.
        print """
static void
%(s)s_init__(struct ovsdb_idl_row *row)
{
    %(s)s_init(%(s)s_cast(row));
}""" % {'s': structName}

        # Row Initialization function.
        print """
/* Clears the contents of 'row' in table "%(t)s". */
void
%(s)s_init(struct %(s)s *row)
{
    memset(row, 0, sizeof *row); """ % {'s': structName, 't': tableName}
        for columnName, column in sorted(table.columns.iteritems()):
            if column.type.is_smap():
                print "    smap_init(&row->%s);" % columnName
        print "}"

        # First, next functions.
        print '''
/* Searches table "%(t)s" in 'idl' for a row with UUID 'uuid'.  Returns
 * a pointer to the row if there is one, otherwise a null pointer.  */
const struct %(s)s *
%(s)s_get_for_uuid(const struct ovsdb_idl *idl, const struct uuid *uuid)
{
    return %(s)s_cast(ovsdb_idl_get_row_for_uuid(idl, &%(p)stable_classes[%(P)sTABLE_%(T)s], uuid));
}

/* Returns a row in table "%(t)s" in 'idl', or a null pointer if that
 * table is empty.
 *
 * Database tables are internally maintained as hash tables, so adding or
 * removing rows while traversing the same table can cause some rows to be
 * visited twice or not at apply. */
const struct %(s)s *
%(s)s_first(const struct ovsdb_idl *idl)
{
    return %(s)s_cast(ovsdb_idl_first_row(idl, &%(p)stable_classes[%(P)sTABLE_%(T)s]));
}

/* Returns a row following 'row' within its table, or a null pointer if 'row'
 * is the last row in its table. */
const struct %(s)s *
%(s)s_next(const struct %(s)s *row)
{
    return %(s)s_cast(ovsdb_idl_next_row(&row->header_));
}

unsigned int %(s)s_get_seqno(const struct ovsdb_idl *idl)
{
    return ovsdb_idl_table_get_seqno(idl, &%(p)stable_classes[%(P)sTABLE_%(T)s]);
}

unsigned int %(s)s_row_get_seqno(const struct %(s)s *row, enum ovsdb_idl_change change)
{
    return ovsdb_idl_row_get_seqno(&row->header_, change);
}

const struct %(s)s *
%(s)s_track_get_first(const struct ovsdb_idl *idl)
{
    return %(s)s_cast(ovsdb_idl_track_get_first(idl, &%(p)stable_classes[%(P)sTABLE_%(T)s]));
}

const struct %(s)s
*%(s)s_track_get_next(const struct %(s)s *row)
{
    return %(s)s_cast(ovsdb_idl_track_get_next(&row->header_));
}''' % {'s': structName,
        'p': prefix,
        'P': prefix.upper(),
        't': tableName,
        'T': tableName.upper()}

        print '''

/* Deletes 'row' from table "%(t)s".  'row' may be freed, so it must not be
 * accessed afterward.
 *
 * The caller must have started a transaction with ovsdb_idl_txn_create(). */
void
%(s)s_delete(const struct %(s)s *row)
{
    ovsdb_idl_txn_delete(&row->header_);
}

/* Inserts and returns a new row in the table "%(t)s" in the database
 * with open transaction 'txn'.
 *
 * The new row is assigned a randomly generated provisional UUID.
 * ovsdb-server will assign a different UUID when 'txn' is committed,
 * but the IDL will replace any uses of the provisional UUID in the
 * data to be to be committed by the UUID assigned by ovsdb-server. */
struct %(s)s *
%(s)s_insert(struct ovsdb_idl_txn *txn)
{
    return %(s)s_cast(ovsdb_idl_txn_insert(txn, &%(p)stable_classes[%(P)sTABLE_%(T)s], NULL));
}''' % {'s': structName,
        'p': prefix,
        'P': prefix.upper(),
        't': tableName,
        'T': tableName.upper()}

        # Verify functions.
        for columnName, column in sorted(table.columns.iteritems()):
            print '''
/* Causes the original contents of column "%(c)s" in 'row' to be
 * verified as a prerequisite to completing the transaction.  That is, if
 * "%(c)s" in 'row' changed (or if 'row' was deleted) between the
 * time that the IDL originally read its contents and the time that the
 * transaction commits, then the transaction aborts and ovsdb_idl_txn_commit()
 * returns TXN_AGAIN_WAIT or TXN_AGAIN_NOW (depending on whether the database
 * change has already been received).
 *
 * The intention is that, to ensure that no transaction commits based on dirty
 * reads, an application should call this function any time "%(c)s" is
 * read as part of a read-modify-write operation.
 *
 * In some cases this function reduces to a no-op, because the current value
 * of "%(c)s" is already known:
 *
 *   - If 'row' is a row created by the current transaction (returned by
 *     %(s)s_insert()).
 *
 *   - If "%(c)s" has already been modified (with
 *     %(s)s_set_%(c)s()) within the current transaction.
 *
 * Because of the latter property, always call this function *before*
 * %(s)s_set_%(c)s() for a given read-modify-write.
 *
 * The caller must have started a transaction with ovsdb_idl_txn_create(). */
void
%(s)s_verify_%(c)s(const struct %(s)s *row)
{
    ovs_assert(inited);
    ovsdb_idl_txn_verify(&row->header_, &%(s)s_columns[%(S)s_COL_%(C)s]);
}''' % {'s': structName,
        'S': structName.upper(),
        'c': columnName,
        'C': columnName.upper()}

        # Get functions.
        for columnName, column in sorted(table.columns.iteritems()):
            if column.type.value:
                valueParam = ',\n\tenum ovsdb_atomic_type value_type OVS_UNUSED'
                valueType = '\n    ovs_assert(value_type == %s);' % column.type.value.toAtomicType()
                valueComment = "\n * 'value_type' must be %s." % column.type.value.toAtomicType()
            else:
                valueParam = ''
                valueType = ''
                valueComment = ''
            print """
/* Returns the "%(c)s" column's value from the "%(t)s" table in 'row'
 * as a struct ovsdb_datum.  This is useful occasionally: for example,
 * ovsdb_datum_find_key() is an easier and more efficient way to search
 * for a given key than implementing the same operation on the "cooked"
 * form in 'row'.
 *
 * 'key_type' must be %(kt)s.%(vc)s
 * (This helps to avoid silent bugs if someone changes %(c)s's
 * type without updating the caller.)
 *
 * The caller must not modify or free the returned value.
 *
 * Various kinds of changes can invalidate the returned value: modifying
 * 'column' within 'row', deleting 'row', or completing an ongoing transaction.
 * If the returned value is needed for a long time, it is best to make a copy
 * of it with ovsdb_datum_clone().
 *
 * This function is rarely useful, since it is easier to access the value
 * directly through the "%(c)s" member in %(s)s. */
const struct ovsdb_datum *
%(s)s_get_%(c)s(const struct %(s)s *row,
\tenum ovsdb_atomic_type key_type OVS_UNUSED%(v)s)
{
    ovs_assert(key_type == %(kt)s);%(vt)s
    return ovsdb_idl_read(&row->header_, &%(s)s_col_%(c)s);
}""" % {'t': tableName, 's': structName, 'c': columnName,
       'kt': column.type.key.toAtomicType(),
       'v': valueParam, 'vt': valueType, 'vc': valueComment}

        # Set functions.
        for columnName, column in sorted(table.columns.iteritems()):
            type = column.type

            comment, members = cMembers(prefix, tableName, columnName,
                                        column, True)

            if type.is_smap():
                print comment
                print """void
%(s)s_set_%(c)s(const struct %(s)s *row, const struct smap *%(c)s)
{
    struct ovsdb_datum datum;

    ovs_assert(inited);
    if (%(c)s) {
        struct smap_node *node;
        size_t i;

        datum.n = smap_count(%(c)s);
        datum.keys = xmalloc(datum.n * sizeof *datum.keys);
        datum.values = xmalloc(datum.n * sizeof *datum.values);

        i = 0;
        SMAP_FOR_EACH (node, %(c)s) {
            datum.keys[i].string = xstrdup(node->key);
            datum.values[i].string = xstrdup(node->value);
            i++;
        }
        ovsdb_datum_sort_unique(&datum, OVSDB_TYPE_STRING, OVSDB_TYPE_STRING);
    } else {
        ovsdb_datum_init_empty(&datum);
    }
    ovsdb_idl_txn_write(&row->header_,
                        &%(s)s_columns[%(S)s_COL_%(C)s],
                        &datum);
}
""" % {'t': tableName,
       's': structName,
       'S': structName.upper(),
       'c': columnName,
       'C': columnName.upper()}
                continue

            keyVar = members[0]['name']
            nVar = None
            valueVar = None
            if type.value:
                valueVar = members[1]['name']
                if len(members) > 2:
                    nVar = members[2]['name']
            else:
                if len(members) > 1:
                    nVar = members[1]['name']

            print comment
            print 'void'
            print '%(s)s_set_%(c)s(const struct %(s)s *row, %(args)s)' % \
                {'s': structName, 'c': columnName,
                 'args': ', '.join(['%(type)s%(name)s' % m for m in members])}
            print "{"
            print "    struct ovsdb_datum datum;"
            if type.n_min == 1 and type.n_max == 1:
                print "    union ovsdb_atom key;"
                if type.value:
                    print "    union ovsdb_atom value;"
                print
                print "    ovs_assert(inited);"
                print "    datum.n = 1;"
                print "    datum.keys = &key;"
                print "    " + type.key.assign_c_value_casting_away_const("key.%s" % type.key.type.to_string(), keyVar)
                if type.value:
                    print "    datum.values = &value;"
                    print "    "+ type.value.assign_c_value_casting_away_const("value.%s" % type.value.type.to_string(), valueVar)
                else:
                    print "    datum.values = NULL;"
                txn_write_func = "ovsdb_idl_txn_write_clone"
            elif type.is_optional_pointer():
                print "    union ovsdb_atom key;"
                print
                print "    ovs_assert(inited);"
                print "    if (%s) {" % keyVar
                print "        datum.n = 1;"
                print "        datum.keys = &key;"
                print "        " + type.key.assign_c_value_casting_away_const("key.%s" % type.key.type.to_string(), keyVar)
                print "    } else {"
                print "        datum.n = 0;"
                print "        datum.keys = NULL;"
                print "    }"
                print "    datum.values = NULL;"
                txn_write_func = "ovsdb_idl_txn_write_clone"
            elif type.n_max == 1:
                print "    union ovsdb_atom key;"
                print
                print "    ovs_assert(inited);"
                print "    if (%s) {" % nVar
                print "        datum.n = 1;"
                print "        datum.keys = &key;"
                print "        " + type.key.assign_c_value_casting_away_const("key.%s" % type.key.type.to_string(), "*" + keyVar)
                print "    } else {"
                print "        datum.n = 0;"
                print "        datum.keys = NULL;"
                print "    }"
                print "    datum.values = NULL;"
                txn_write_func = "ovsdb_idl_txn_write_clone"
            else:
                print "    size_t i;"
                print
                print "    ovs_assert(inited);"
                print "    datum.n = %s;" % nVar
                print "    datum.keys = %s ? xmalloc(%s * sizeof *datum.keys) : NULL;" % (nVar, nVar)
                if type.value:
                    print "    datum.values = xmalloc(%s * sizeof *datum.values);" % nVar
                else:
                    print "    datum.values = NULL;"
                print "    for (i = 0; i < %s; i++) {" % nVar
                print "        " + type.key.copyCValue("datum.keys[i].%s" % type.key.type.to_string(), "%s[i]" % keyVar)
                if type.value:
                    print "        " + type.value.copyCValue("datum.values[i].%s" % type.value.type.to_string(), "%s[i]" % valueVar)
                print "    }"
                if type.value:
                    valueType = type.value.toAtomicType()
                else:
                    valueType = "OVSDB_TYPE_VOID"
                print "    ovsdb_datum_sort_unique(&datum, %s, %s);" % (
                    type.key.toAtomicType(), valueType)
                txn_write_func = "ovsdb_idl_txn_write"
            print "    %(f)s(&row->header_, &%(s)s_columns[%(S)s_COL_%(C)s], &datum);" \
                % {'f': txn_write_func,
                   's': structName,
                   'S': structName.upper(),
                   'C': columnName.upper()}
            print "}"

        # Table columns.
        print "\nstruct ovsdb_idl_column %s_columns[%s_N_COLUMNS];" % (
            structName, structName.upper())
        print """
static void\n%s_columns_init(void)
{
    struct ovsdb_idl_column *c;\
""" % structName
        for columnName, column in sorted(table.columns.iteritems()):
            cs = "%s_col_%s" % (structName, columnName)
            d = {'cs': cs, 'c': columnName, 's': structName}
            if column.mutable:
                mutable = "true"
            else:
                mutable = "false"
            print
            print "    /* Initialize %(cs)s. */" % d
            print "    c = &%(cs)s;" % d
            print "    c->name = \"%(c)s\";" % d
            print column.type.cInitType("    ", "c->type")
            print "    c->mutable = %s;" % mutable
            print "    c->parse = %(s)s_parse_%(c)s;" % d
            print "    c->unparse = %(s)s_unparse_%(c)s;" % d
        print "}"

    # Table classes.
    print ""
    print "struct ovsdb_idl_table_class %stable_classes[%sN_TABLES] = {" % (prefix, prefix.upper())
    for tableName, table in sorted(schema.tables.iteritems()):
        structName = "%s%s" % (prefix, tableName.lower())
        if table.is_root:
            is_root = "true"
        else:
            is_root = "false"
        print "    {\"%s\", %s," % (tableName, is_root)
        print "     %s_columns, ARRAY_SIZE(%s_columns)," % (
            structName, structName)
        print "     sizeof(struct %s), %s_init__}," % (structName, structName)
    print "};"

    # IDL class.
    print "\nstruct ovsdb_idl_class %sidl_class = {" % prefix
    print "    \"%s\", %stable_classes, ARRAY_SIZE(%stable_classes)" % (
        schema.name, prefix, prefix)
    print "};"

    # global init function
    print """
void
%sinit(void)
{
    if (inited) {
        return;
    }
    assert_single_threaded();
    inited = true;
""" % prefix
    for tableName, table in sorted(schema.tables.iteritems()):
        structName = "%s%s" % (prefix, tableName.lower())
        print "    %s_columns_init();" % structName
    print "}"

    print """
/* Return the schema version.  The caller must not free the returned value. */
const char *
%sget_db_version(void)
{
    return "%s";
}
""" % (prefix, schema.version)



def ovsdb_escape(string):
    def escape(match):
        c = match.group(0)
        if c == '\0':
            raise ovs.db.error.Error("strings may not contain null bytes")
        elif c == '\\':
            return '\\\\'
        elif c == '\n':
            return '\\n'
        elif c == '\r':
            return '\\r'
        elif c == '\t':
            return '\\t'
        elif c == '\b':
            return '\\b'
        elif c == '\a':
            return '\\a'
        else:
            return '\\x%02x' % ord(c)
    return re.sub(r'["\\\000-\037]', escape, string)

def usage():
    print """\
%(argv0)s: ovsdb schema compiler
usage: %(argv0)s [OPTIONS] COMMAND ARG...

The following commands are supported:
  annotate SCHEMA ANNOTATIONS print SCHEMA combined with ANNOTATIONS
  c-idl-header IDL            print C header file for IDL
  c-idl-source IDL            print C source file for IDL implementation
  nroff IDL                   print schema documentation in nroff format

The following options are also available:
  -h, --help                  display this help message
  -V, --version               display version information\
""" % {'argv0': argv0}
    sys.exit(0)

if __name__ == "__main__":
    try:
        try:
            options, args = getopt.gnu_getopt(sys.argv[1:], 'C:hV',
                                              ['directory',
                                               'help',
                                               'version'])
        except getopt.GetoptError, geo:
            sys.stderr.write("%s: %s\n" % (argv0, geo.msg))
            sys.exit(1)

        for key, value in options:
            if key in ['-h', '--help']:
                usage()
            elif key in ['-V', '--version']:
                print "ovsdb-idlc (Open vSwitch) 2.5.0"
            elif key in ['-C', '--directory']:
                os.chdir(value)
            else:
                sys.exit(0)

        optKeys = [key for key, value in options]

        if not args:
            sys.stderr.write("%s: missing command argument "
                             "(use --help for help)\n" % argv0)
            sys.exit(1)

        commands = {"annotate": (annotateSchema, 2),
                    "c-idl-header": (printCIDLHeader, 1),
                    "c-idl-source": (printCIDLSource, 1)}

        if not args[0] in commands:
            sys.stderr.write("%s: unknown command \"%s\" "
                             "(use --help for help)\n" % (argv0, args[0]))
            sys.exit(1)

        func, n_args = commands[args[0]]
        if len(args) - 1 != n_args:
            sys.stderr.write("%s: \"%s\" requires %d arguments but %d "
                             "provided\n"
                             % (argv0, args[0], n_args, len(args) - 1))
            sys.exit(1)

        func(*args[1:])
    except ovs.db.error.Error, e:
        sys.stderr.write("%s: %s\n" % (argv0, e))
        sys.exit(1)

# Local variables:
# mode: python
# End:
